Electric-motor-driven combined camera focal-plane shutter and film feed



HINELINE ELECTRIC-MOTOR-DRIVEN COMBINED CAMERA Jan. 22, 1946. E. s.

FOCAL-PLANE"SHUTTER AND FILM-FEED Filed Oct. 19, 1945 13 Sheets-Sheet l V IN VENT OR.

.zdsonflfiz'neh'ne K I ab .15 2207. rags Jan. 22, 1946. E. s. HINELINE ELECTRIC-MOTOR-DRIVEN COMBINED CAMERA FOCAL-PLANE-SHUTTER AND FILM-FEED Filed Oct. 19, 1943 13 Sheets-Sheet 2 0? mom vom 1N VENTOR.

EZSOILSI [fine 6 Jan. 22, 1946. E. s. HINELINE ELECTRIC-MOTOR-DRIVEN COMBINED CAMERA FOCAL PLANE-SHUTTER AND FILM-FEED Filed Oct. 19, 1943 INVENTOR.

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ELECTRIC-MOTOR-DRIVEN COMBINED CAMERA FQCAL-PLANE-SHUTTER AND FILM-FEED Filed 001:. 19, 194: '13 Sheets-Sheet 4 IIIIIIIIIIIIIII Bali EL 252. I 26 40 39 INVENTOR,

- ZZisonSf/incZuzc Jan. 22, 1946. E. s. HINELINE ELECTRIC-MOTOR-DHIVEN COMBINED CAMERA FOCAL-PLANE-SHUTTER AND FILM -FEED Filed Oct. 19, 1943 l3 Sheets-Sheet 5 $2, INVENTOR.

E; .s. HINEL INE ELECTRIC-MOTOR-DRIVEN COMBINE Jan 22, 1946.

2,393,534 D CAMERA FOCAL-PLANE-SHUTTER AND'FILM-FEED Filed Oct. 19, '1943 13 Sheets-Sheet 6 1946- E. s. HlNELlNE 93,534

, ELECTRIC-MOTOR-DRIVEN COMBINED CAMERA FOCAL-PLANE-SHUTTER AND FILM-FEED l3 Sheets-Sheet 7 A ===S==E=m INVENTOR. E0750 SZfi'neZz'ne Filed Oct. 19, 1943 D5 MQ Q dvg Jan. 22, 1946. I E. s. HlNELlNE 2,393,534

ELECTRIC-MOTOR-DRIVEN COMBINED CAMERA FOCAL-PLANESHUTTER AND FILM-FEED Filed Oct. 19, 1943 13 Sheets-Sheet 8' INVENTOR. zdson/fiffiz'neline Jan. 22, 1946. s, H NEL NE 2,393,534

.ELECTRIC-MOTOR-DRIVEN COMBINED CAMERA FOCAL-PLANE-SHUTTER AND FILM-FEED Filed QCt. 19, 1943 13 Sheets-Sheet 9 IHI Hill! I l al maf- HHHIIII I.

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E. S. HINELINE ELECTRIC-MOTOR-DRIVEN COMBINED CAMERA FOCAL-PLANESHUTTER AND FILM-FEED l5 Sheets-Sheet 10 Filed Oct. 19, 1945 EdsonS. HakeZz'ne E. S. HINELINE ELECTRIC-MOTOR-DHIVEN COMBINED CAMERA Jan. 22, 1946.

FOCAL-PLANE-SHUTTER AND FILM-FEED Filed Oct. 19, 1943' 15 Sheets-Sheet 11 bum JM Ty ELECTRIC-MO'iOR-DRIVEN COMBINED CAMERA FOCAL-PLANE-SHUTTER AND FILM-FEED Jan. 22,1946. E SJHINELINE 93,534

' Filed Oct. 19, 1945 13 Sheets-Sheet 12 ?:9fi 309 E9 IZSOHS 11 02622226 1946- E. s. HINELINE 2,393,534 ELECTRIC-MOTOR-DRIVEN comsmnn CAMERA FOCAL-PLANE-SHUTTER AND FILM-FEED Filed Oct. 19., 1943 13 Sheets-Sheet l3 INYENTQR. Idson 5.1 5 6 Q 62; @M fmw I I I E I stud Patented Jan. 22, 1946 UNITED STATES PATENT OFFiC FILIM FEED Edson S. Hinellne, Rochester, N. Y., assignor to Graflex, Inc., Rochester, N. Y., a corporation of Delaware Application October 19, 19 43, Serial No. 506,848-

- 46 Claims.

This invention relates tophotographic cameras, particularly of the automatic aerial type, but adapted for various uses.

In order that the principle of the invention may be readily'understood, I have disclosed a 7 era is equipped with a shutter having a number oi diil'erent exposure aperture settings;

showing a'battery as a current supply source and a switch for closing the circuit to operate'the camera;

Fig. 4 is a top plan view of the camerawith part of the housing in. horizontal section so as to show the position of the pressure pad. the idler roll, the film measuring roll, the film spool support and thedrive mechanism;

Fig. 5 is a partial vertical section through the camera on the line 5-5, Fig. 4;

Fig. 6 is an enlarged detail in longitudinal section of a portion of Fig. 5 on the line 6-4, Fig. 4, showing the construction of a part of the pressure Dad operating mechanism; I

Fig. '7 is a vertical longitudinal section through Fig. 4 on'the line '|-1 thereof, showing the position of the film spools and the path traveled by second curtain rewind gear and the second.cur-' tain pinion; Fig. 10 is a vertical section through Fig. 9 on the line III-l thereof, showing the curtain latch stud and the second curtain driving stud; Fig. 11 is a detail in side elevation, showing the first curtain rewind gear and the first curtain pinion; a 9

Fig. 12 is a vertical section through Fig. 11 on the line l2-l2 thereof, showing the shutter rewind stud and the second curtain driving Fig. 13 is a front elevation of the camera with the lens "cone" and the mechanism housing cover removed to show the cyclirrgmechanism, -the film feed clutch, the exposure counter, the shutter rewind mechanism, the switches for controlling the cycling mechanism and shutter release, and the receptacles for power supply and remote control, the entire mechanism being shown in its condition when the shutter has been rewound and a new area of film has been fed into position over the exposure opening and the camera is ready for making an exposure;

Fig. 14 is a. front elevation similar to Fig. 13 but with a diilerent position of the parts, the circuit having been closed to the shutter release solenoid, the shutter turtaln having run all the way down, thusoompleting a circuit to the motor, and the motor having started to' operate, thus lifting the pressure pad and releasing the film measuring mechanism, the film being wound to the next exposure position and the 2 shutter being rewound for the next exposure;

Fig.'l5 is a partial horizontal section on an enlarged scale through Fig. 13 on the line I--l5 thereof, showing the motor gear drive and its association with the cycling mechanism or intempted gears, the idler gear constituting the counter gear, and the counter dial; 7

Fig. 16 is a detail in horizontal section through the film measuring clutch;

Fig. 1'7 is-a detail in side elevation of the interrupted gears;

'Fig. 18 is a horizontal section through Fig. 13 on the line I8--I8 thereof, showing the shutter rewind mechanism;

Fig-19 is a iragmentary left-hand end view of the camera viewing Fig. 13, with parts broken away more clearly to show the construction;

Fig. 20 is a horizontal section through the shutter' rewind mechanism, showing the shutter rewind driving pawl, the shutter being completely rewound and the driving pawl disengaged from the shutter rewind stud;

Fig. 21 is a side elevation of the parts shown in Fig. 20, certain parts being represented in broken lines to show more clearly the construc-.

tion of the shutter rewind driving mechanism, represented as in condition for rewinding the shutter, the. driving pawl not yet having been released;

, Fig. 22 is a'view similar to Fig. 21, but representing' thedriving pawl as released from the driving stud of the first curtain gear,

Fig. 23 is a detail of the shutter rewind mechanism, the shutter being rewound but the rewind pawl not yet released.

as Fig. a4 is a view similar to Fi 23. the rewind in R818;

stud being shown in section, and the rewind pawl being about to be engaged by the pawl release cam;

Fig. 27 is a view similar to Fig. 26, the rewind pawl having been actedupon by the release cam;

Fig. 28 is a section through the curtain rollers,

the curtain and the exposure plate lengthwise the latter, the curtain being shown in the rundown and capped condition;

Fig. 29 is a view similar to Fig. 28, the curtain having been rewound and the exposure slot or aperture thereof not yet established;

Fig. 30 is a view similar to Fig. 28, showing the curtain exposure slot or aperture established and the curtain in condition for making an exposure;

Fig. 31 is a broken-away detail intop plan view of the curtain when in the condition shown Fig. 32 is a similar top plan view of the curtain in the condition shown in Fig. 80;

Fig. 83 is a longitudinal section through the curtain showing the exposure slot or aperture, the curtain having just started to run down or across the exposure opening;

Fig. 34 isa section similar to Fig. 33, the curtain having run down and the exposure slot or aperture represented as having a greater dimension than the exposure slot or aperture shown inFig.33;

Fig. 35 is a horizontal section on the line 38-35 of Fig. 41 through the shutter rewind mechanism equipped with means for varying the curtain aperture;

Fig. 36 is a vertical section through the shutter rewind mechanism, the first curtain driving stud having been released from the curtain rewind pawl;

Fig. 3'7 is a horizontal section through Fig. 36 on the line 31-31 thereof;-

Fig. 38 is a horizontal section through Fig. 35 on the line 38-38 thereof, but showing the shutter set for a diiferent speed and with the exposure slot or aperture established;

Fig. 39 is a horizontal section through Fig. 42 on the line 38-" thereof;

Fig. 40 is a view partly broken away, but similar to Fig. 37, the shutter having been set for a difierent exposure slot or aperture;

Fig. 41 is a front elevation of the shutter rewind mechanism having incorporated the shutter setting knob, the shutter being set for a speed of /1000 of a second, the mechanism being shown with the shutter in the act of being rewound and the driving pawl not yet released;

Fig. 42 is-a view similar to Fig. 41, the driving pawl having been released, establishing. the exposure slotor aperture in the shutter of a width providing for an exposure of /1000 of a second;

Fig. 43 is a view similar to Fig. 42, the shutter setting knob having been removed to show more clearly the construction of the shutter rewind mechanism; and

Fig. 44 is a view similar to Fig. 43, but with the shutter mechanism in a run-down condition. This invention relates to a new photographic camera that is adapted to many uses, among them the photographing of flight instrume ts in an a,sos,sss

airplaneinfll ht,orinstrinnentsusedinrunning various tests, such as manometemhnd for almost any purpose requiring a self-contained camera that makes an exposure upon the closing of an electric circuit and then automatically restores itselfforasecondexposure. Thecameraisalso especiall adapted for use as an aerial camera particularly when used for certain classes of work such as photographing the smoke given oif by a bomb when it explodes upon hitting the ground. 'I'hecameracanalsobeuseforregularaerial photographic work. It is perfectly adapted for uses involving setting up a camera in a permanent installation so as to make photographs at predetermined intervals, the electrical circuit being closed by means of a timeclock or any other suitable device. Since the camera is so constructed that lenses of almost any focal length can be used, the camera need not be close to the object being photographed. Another use for which this camera is perfectly adapted is for photographing games, such as baseball games, wherein several of such cameras will be mounted and directed at certain spots, such as the various bases, the pitcher's box, or any other desired area, so that one operator can control any one of the cameras at the proper instant by pushing a button and closing an electrical circuit. Such uses will serve to point out the versatility of this camera.

Among the numerous objects of this invention are: to provide a camera of comparatively simple, sturdy construction, thus making it possible to manufacture it in large quantities at a very low cost, and one that is foolproof "in operation; to provide a camera having a drive motor built within the body of the camera; to provide a camera especially adapted for remote control; to Provide a camera having an automatic cycling means that is controlled by the operation of the camera shutter itself, so that after each operation of the shutter the camera is automatically restored to condition for a second exposure; to provide a camera having improved film feed means; to provide a camera having an automatic control for the pressure pad that is held in contact with the sensitized material by resilient spring means, which pressure pad is removed from contact with the sensitized material at the commencement of the rewind cycle; to provide a camera having a selfcapping focal-plane shutter of a variable exposure aperture type and having means for controlling the width of the opening of such exposure aperture during the time the curtain travels in a picture-making direction; and to provide a camera having a simple curtain rewind and film feed mechanism that can be easily serviced in the field.

This invention is more particularly directed to the shutter mechanism, and to the film feed interrelated therewith, and to the automatic cycling means driven by an electric motor and controlled by the operation of the shutter itself, so that after each operation of the shutter the camera is automatically reset. Before proceeding to describe these and other important features, I will describe in detail the general structure of the camera body and for that purpose will refer first to Figs. 1, 2, 4. 5, 6 and 7, wherein is shown the preferred form of structure for this purpose.

The camera body, is shown in Fig 1. I. 4 and and in part in Figs. 7 and 8, is made up mainly of two parallel spaced plates, one of which is termed the mechanism plate and is indicated in section in Fig. 4 and elsewhere at II. Parallel therewith and spaced therefrom by nearly the width of the camera is the other or so called outer. plate 2 I, and supported between said plates 28 and 2|, normal thereto, is a central channel member 22, shown in plan in Fig. 4 and ,in'transverse section in Fig. 5, and in longitudinal section in Fig. 7'; The said member 22 is attached to mechanism plate by rivets 23, and to the outer plate 2| by screws 24.

Positioned between said plates 28, 2| are partitions 25 and 26, the former being best shown in Fig. 5, and both being indicated in dotted lines in Fig. 4. Both partitions ,25, 26 are of channel form, and are attached to the mechanism plate 28 (as shown in Fig. 5) by rivets 21 passing through upturned edges, and to the outer plate 2| by screws 28 passing through said upturned edges indicated at 2511 in Fig. 5. -Also positioned between the mechanism plate 28 and the outer plate 2| is a cone support casting of any suitableshape (indicated in dotted lines at 29 in Figs. 13 and 14 and in solid lines in Fig. 8), which is attached to the mechanism plate 20 by screws 30, 30, and to the outer plate 2| by screws or in other suitable manner not herein indicated.

Attached to the mechanism plate 20 is a mechanism housing cover 3| by screws 32, 32, as shown in Fig. 1, and the lens cone (indicated generally at 33) is attached to the cone" support casting 29 :by screws 34, 34. The said lens "cone 33 is provided with a bushing 35 into which is threaded the lens barrel 36 of any suitable type and structure.

Enclosing the entire camera is a cover of general rectangular shape made up of two parts 31, 38, completely enclosing the camera parts between the plates 28, 2| (best indicated in Fig. 4). The mechanism plate 28 is provided with a groove 39 I p 3 outer plate 2| is attached a second film support stud 58, not mounted directly on the outer plate 2| but carried by a spring member 59 carried by said plate 2|. Also attached to the outer plate 2| is a second film spool support stud 69 by means of a spring 6|. The springs 59 and 6| are most clearly shown in Figs. 4 and 5, and are also shown in dotted lines in Fig. 7. They are riveted to the outer plate 2| inany suitable manner, and in Fig. 13 rivets 59a and 6|a are represented for this purpose.

As shown in Fig. 4, to the mechanism plate 20 is attached a bushing 62 held to said mechanism plate 20 by nut 63 and washer 64. Passing through the bushing 82 is a shaft 65 .having the usual film spool driving dog 66. To the opposite end of the shaft 65, as shown in Fig. 13, is a film feed gear 61 provided with ahub 68 and a lock screw 69. The said film feed gear and its function will be more fully referred to subsequently.

Referring to Figs. 4, 5, 6 and 7, the pressure plate or pad 56 is provided with a hinge member 18 attached thereto by rivets 1|, H. Passing through the mechanism plate 28 and the' outer plate 2| is a shaft 12, and mounted thereon is a hub 13, shown in Fig. 4 as locked to the shaft ing a hole in the hinge member 10. On the opposite end of the shaft 12 adjacent to the mechanism plate 28 is a second hub 11 having a lock screw 18, as best shown in Figs. 6 and 7. The

into which the cover member 31 is fitted and the lens "cone casting 29 is provided with a similar groove 48 indicated in dotted lines in Figs. 13 and 14, and in solid lines in Fig. 8. The structure is thus completely light-tight. The said cover consisting of the two cover members 31, 38 is'provided with a. clamp nut 4| (best' shown in Fig. 4) threaded onto a stud 42 attached to the outer plate 2|, thus providing means for securely holding the camera cover in the camera body.

In Fig. 4 is represented a film idler roll 43 provided with a shaft 44 free to turn in a bushing 45 mounted in the outer plate 2| and in a bushing 46 mounted on the mechanism plate 20. Also mounted between the mechanism plate 28 and the outer plate 2| is a measuring roll 41 having a shaft 48, one. end whereof passes through a bushing" in said outer plate 2|. The opposite end of the shaft 48 passes through a bushing 58 and the mechanism plate 28. To the outer right-hand or lower end of the shaft 48 (viewing Fig. 4) is attached a measuring cam 5|, more fully described subsequently. Fitted over the measuring roll 41, as shown in Figs. 4 and '1,- is a rubber cylinder or sleeve 52 so as to provide sufiicient friction between said measuring roll 41 and the sensitized.

film material, accurately to measure of! the proper" amount of film as it passes around the measuring roll 41.

Attached to the central channel member 22, as best shown in Figs. 4, 5 and 7, is an aperture plate 53 by means of screws 54, 54 passing through bushings 55, 55 and threaded into the central channel member 22. Said bushings 55, 55 serve to guide the film through the camera and also properly to position the pressure plate or pad 56.

As best shown in Fig. 5, to the mechanism ite 28 is attached a film support stud 51, and to the i of the pressure pad operating arm 84.

hub 11 is also provided with an arm 19 and a pin 80, thelatter engaging a second hole in the hinge member 10.

Fitted to the right-hand end of the shaft 12, viewing Fig. 4, and the left-hand end, viewing Fig. 5, and to the left of the mechanism plate :0, viewing Fig. 5, is a hub 81 having attached thereto a bell crank 82, shown most clearly in Figs. 6 and 13. Free to turn on the shaft 12 is a washer 83 separating the pressure pad operating arm- 84 that is riveted to the shaft 12, as shown in Figs. 5 and 6. As there indicated, and also in Fig. 13, said pressure pad operating arm 84 is provided with an L-shaped end 85 provided with a hole 86 into which is hooked the spring 89, the opposite end whereof is anchored to the spring support rod 88, as shown most clearly in Figs. 5, 13 and 14. Inasmuch as the pressure pad operating arm 84 is securely attached to the shaft 12, when the pressure pad operating. arm 84 is turned in a counterclockwise direction, viewing Figs. 13 and 14, the pressure plate or pad 56 will be caused to be lifted from the sensitized material 89, and when released the shaft 12 will be caused to turn in a clockwise direction, thus applying pressure' to the sensitized material 89 through the tension of spring 81. The said bell crank 82 is provided with a. second arm 98. that engages the L-shaped or turned-over end 85 v Thus any movement of the bell crank 82 in a contraclockwise direction will cause the shaft-12 also to be turned in a contraclockwise direction.

The structure thus far referred to is that pertaining to or constituting the general structure of the camera, excepting that structure relating to the pressure plate or pad mechanism.- My invention is not limited to a camera of the" specific structure thus far described, which has been set forth merely as one embodiment of means for supporting those portions of the photographic mechanism to which my invention more particularly applies.

The shutter mechanism-I will next describe the shutter mechanism, which is motor driven by an electric motor within the camera body, and which shutter is preferably of the two-curtain focal-plane shutter type providing, if desired, a variable aperture, and which shutter is selfcapping while being wound. In cooperation with the shutter there is provided automatic cycling means controlled by the operation of the shutter itself, so that after each operation the camera is ready for the next operation.

I will describe without limiting myself thereto the specific construction provided for this purpose, and in so doing I will refer particularly to Fig. 4 and Figs. 8 to 13 and 19.

The camera is provided with a first curtain take-up roller 3|. shown in solid lines in Fig. 8 and in dotted lines in Fig. 4, and with a secondcurtain take-up roller 32sirnilarly shown in said figures. Each of said curtains is provided with the usual tension roller, the first curtain tension roller being indicated at 33, in dotted lines in Fig. 4, and the second curtain tension roller 30 in. Figs. 4 and 19. They are also shown in the subsequently referred to views Figs. 28 to 30.

In Fig. 8, indicating certain of the parts in vertical section and showing many of the parts that are fitted to the mechanism plate 20, there is shown therein a bushing 35 through which passes the shaft 96 of the second curtain take-up roller 32, to which shaft is attached in any suitable manner a pinion 31 meshing with the second curtain rewind gear 38. Also fitted to the said mechanism plate 20 is another bushing 99 through which passes the shalt I of the said first curtain take-up roller 9i, and to the lefthand end of said shaft I00 is attached the first curtain pinion IOI meshing with the first curtain rewind gear I02, which with the second curtain rewind gear 33 are' carried on a stud shaft or stud I03, best indicated in Figs. 8, 18 and 20. The said shaft or stud I03 is provided with a separating collar I00 and. has a reduced diameter I030 and a threaded end portion I05. The said shaft or stud passes through the said mechanism plate 20 and is securely held thereto by nut I05 and lock washer I01.

The second curtain rewind gear 08 and the first curtain rewind gear I02, as most clearly shown in Figs. 8, 18 and 20, are mountedon said shaft I03. The said first curtain rewind gear I02 is provided with a hub I08, a bushing I09, a second curtain drive stud H0 and a first curtain drive stud I I I. The said second curtain drive stud I I0 is shown in Fig. 12 as riveted to the said first curtain rewind gear I02. The said first curtain drive stud III has a neck portion II2 passing through the first curtain rewind gear I02 and through a collar II 3, and is riveted as shown in said Fig. 12. The said collar II3 forms driving means for driving the said second curtain rewind gear 38, which is also provided with a hub I I0 and a bushing IIOa. As shown most clearly in Fig. 10, a second curtain rewind gear'driving stud H5 'is attached to the second curtain rewind gear 98 by riveting or otherwise, and in the same manner shutter release stud I16 is also attached. Also fitted to the said shaft I03 is a main shutter gear II1 having a bushing Ta and attached to said latter gear is a driving plate H8, shown upon a larger scale in Figs. 20, 21 and 22, and to which is attached, as shown in Fig. 18, the film rewind clutch member I I 9 by means of rivets I20. The said second curtain rewind gear 03, the first curtain rewind gear I 02 and the main shutter rewind gear II1 are, as stated, all carried on the shaft I03, being held thereto by a large head screw I22.

I will now describe in detail the electric motor drive for the shutter, and will refer to Figs. 13, 14 and 15, and more particularly to Fig. 19.

I preferably provide an electric motor of a conventional type procurable on the open mar ket, but having a speed reducing tr built thereon. Such a motor is diagrammatically indicated at I23 as attached to the inner face of the mechanism plate 20 by screws I 20, I20. As shown in Fig. 19, a pinion I25 is attached directly to the motor armature shaft and meshes with an intermediate gear I25 carried on a shaft I21, running in bushings I28 in one wall of the gear housing, and in a bushing I29 in the gear cover platev I30, which is itself attached to the motor housing by shoulder screws I30a, I300. Also mounted on the said shaft I21 is a pinion I3I meshing with a second intermediate gear I32 carried on a shaft I33 which runs in a bushing I30 fitted to one wall of the gear housing and in a second bushing I35 fitted to the gear housing cover plate I30. Also mounted on the shaft I33 is a pinion I36 that meshes with a drive gear I31 attached to the main drive shaft I38, being fitted into a bushing I33 and passing through the mechanism plate 20 and securely attached to the gear housing cover plate I30.

Still referring particularly to Figs. l3, l4, l5 and 19. the shaft I38 is provided with a reduced diameter I00, to which is fitted a huh I keyed thereto by pin I02. Attached to the huh I H is a film feed drive gear I03 and an interrupted gear I 00, also shown in Fig. 17. The said gears I03 and I00 are attached to the hub member IOI by through rivets I05, I05, and fitted to said hub I is a cam plate I06, while fitted over the reduced diameter I 00 of the shaft I38 is a crank member I01 provided with a pin I 08. .The crank member I01, cam plate I03 and hub member "I are all securely attached to the shaft I38 by a large head screw I03, said hub member IEI beingkeyed to the shaft I38, so that its position with respect to that shaft is fixed.

- As shown most particularly in Figs. 13, 14, 15,.

the cam plate I05 and the crank member I01 can be adjusted circumferentially with respect to the shaft I38 by loosening the screw I 09, and

.when the proper position is found, they are provide an interrupted motion to the shutter rewind mechanism.

Still referring to Fig. 15, fitted to the mechanism plate 20 and securely anchored thereto, is a stud I52 having an enlarged diameter or shoulder I53, a reduced diameter I 50, a washer I55, and a large head screw I50. The said Interrupted gear I5I is fitted to the reduced diameter I50 of said stud I52, and is free to rotate thereon. Attached to the interrupted gear. I BI is a drive gear I51 by means of rivets I58, and sald drive gear I51 is caused to be rotated intermittently through the gears I5I and I00, the said gear I00 being driven by the said electric motor Referring particularly to Figs. 13, 14 and 15, to

the mechanism plate 20 is fitted a stud I55 having a reduced diameter I88 passing through said mechanism plate 28 and locked thereto by washer IN and nut I82 threaded to the threaded proiection I584 of the said stud I59,- which is provided with amenlarged diameter forming a collar I88. The said stud I58 extends outwardsufilciently far to provide a bearing for a dial for counting the number of exposures upon the film,

and which dial will be described in detail subsequently.

-In Fig. is represented at I88 an extension of the stud I88. Fitted over said stud I59 at its inner end is a washer I85, and free to rotate on said stud I58 is a'bushing I88 which has a press Upon the extension I88 ameter of said knob I88. Fitted upon the said knob I88, as best shown in Fig. 15, is a coiled spring I12 having an outwardly extending end the said cover 8i. The said counter-dial I99 is provided with a series of numbers I15, shown in Figs. 13 and 14, corresponding to the number of exposures that has been made. The coil spring I12 acts as a one-way clutch on the said counterdial knob I88. The purpose of this construction will be more fully set forth in the description of the operation of the camera.

Still referring to Figs. 13, 14 and 15, and also and particularly to Fig. 18, there is fitted to the mechanism plate 29 a stud I18 having a head I11, a reduced diameter portion I18 and a threaded and I18, the said stud being fitted to the said mechanism plate 29 by such reduced diameter portion I18 which is itself fitted into a suitable hole provided therefor and is securely locked by a washer I89 and anut I8I. Fitted to the stud I18 between the head I11 and the washer I82 is a-bushing I88 which is free to turn on the stud I18 but has a press fit'in a second idler gear I88 meshing with the main shutter rewind gear 1 I I1 for rewinding the shutter curtain.

Referring now to Figs. 13, 14, 1s and is, and

particularly to Fig. 18, wherein the structure tobe described is shown in section, there is riveted to the mechanism plate 28 a stud I85 having an; enlarged shoulder I88 and a reduced diameter I81 passing through a suitable hole in the mechanlsm plate 28 and riveted thereto. 1 Fitted over the stud I85 is a bushing I88 over which itself is fitted a film clutch drive gear- I89 provided with a hub I88, to which hub is fitted a spacing plate "I and an ovemmning interclutch member I82, the, said clutch member I82, the spacing plate "I and the film clutch gear I89 being riveted together by shoulder rivets I88, I88 passing through suitable holes provided in the parts.

Referring to Fig. 18. running on the outer surface of the interclutch member I82 is the film feed clutch gear I88 previously referred to, and that meshes with the previously described-film feed drive gear I88. Also fitted to the hub I88 is a ratchet plate I88 provided with studs I85, I85

' 13 and 14. The rollers I98 are fitted in the said notches I88. Connecting the shoulder rivets I98, I95 are springs 299. Inasmuch as the shoulder rivet I98 is permanently attached to the inter- I18 engaged by a turned-in slotted portion I18 of clutch member I92 and the shoulder rivet I95 is securely attached to the ratchet plate I98, the said springs 289 will cause the said ratchet plate I98 to be turned in a clockwise direction, thereby causing the rollers I98 to engage the bore ofthe film feed clutch gear I59. Ifsuch latter gear I59 is caused to be turned in a-.clockwise direction, the rollers I98 will be caused to move in a clockwise direction, thus wedging between the interclutch member I92 and the bore of the film feed clutch gear I59, thereby causing the said interclutch member I92 to be also driven in a clockwise direction. If, however, the teeth 'of the ratchet gear or plate I98 are engaged and prevented irom moving, the rollers I88 will be prevented from moving ina clockwise direction, thus releasing them from engagement with the bore of the said film feed clutch gear I59. When the said ratchet wheel or plate I98 is released, the springs 299 will again cause the rollers E99 to be moved in a clockwise direction, and the inter- I means of which the film is fed for the successive exposures and by which the shutter is operated,

and the means by which the automatic cycling is controlled by the operation of the shutter itself. I will first refer to Figs. 4, 13 and 14.

On the mechanism plate 29 is mounted a stud 29I to which is attached a bushing 292 having riveted thereto a film feed clutch bell crank 298 held to the stud 29I by shoulder screw 298 and provided with a cam-shaped formation 295 for passing through the ratchet plate I88 and en- I gaging clutch rollers. one of-which is shown at I88 in Fig. 18, the said ratchet plate I88 being provided with clearance holes 188a to allow free provided on the crank member I81. The purpose of the pin I88 will be more'fully set forth subsequently. The upper arm of the bell crank 298 is provided with a dog 298 to engage the teeth of the ratchet wheel I98, and on the extreme upper end of the bell crank 298 is a finger-like extension 291 for engaging a notch 298 of the film measuring cam 5| previously referred to, such notch being best shown in Fig. 14. About the stud 29I of the hub or bushing 292 is a spring 299, one end whereof is hooked around one of the motor screws I28 and the opposite end whereof is hooked to the bell crank 298, causing the latter to be turned ina clockwise direction.

When the finger 291 of the bell crank 288 is held out of the notch 298 of the said film measuring cam 5I, the ratchet plate I98 will be allowed to rotate, thus causing the film clutch drive gear I88 to be driven through the clutch members previously referred to. Since the said clutch drive gear I88 is in mesh with the film feed gear 81, as shown in Fig. 13, the dim spool willbe caused torotate in a contraclockwise direction, winding the film until th clutch drive gear I88 is again stopped.

As th film moves over the measuring roll 41 (Figs. 4 and 'l) the said measuring roll will make one revolution, as will also the film measuring cam 2|, and the notch 228 will be engaged by the finger 221, thus permitting the bell crank 222 to rotate in a clockwise direction under the influence of the spring 228, and the dog 228 will engage the teeth of the ratchet wheel I84, disengaging the clutch and the clutch drive gear I28, and the gear 81 will be stopped from further rotation. The measuring roll 41 and its rubber sleeve 52 are of such diameter as to cause lust sufllcient film to be fed when making one revolution to provide a new area of sensitized material for the next exposure.

The electric switches-J will now particularly refer to the electrical switches and cooperating parts, by which not only the feed of the him is controlled, but also the operation of the shutter, and will first refer particularly to Figs. 13 and 14.

To the mechanism plate 22 is attached a switch support plate 2H1 by means of rivets 2| 1, 2H and to said switch support plate 212 is attached a switch 2I2, being a standard switch of any one of several difierent acceptable types. Herein for the purpose I have illustrated a switch known in the trade as the "Acro switch, which is attached to the said switch support plate by screws 212, 212. The aid switch 212 is provided with contacts 2, 215 and 218. The contact 212 is carried on a spring 2l1 actuated by a semicircular spring 218 through a short fiat spring 2l2 and a pin 222. When said pin 222 is moved in an upward direction viewing Figs. 13 and 14, the position of the semicircular spring H8 is changed, thus altering the center of effort, causing the spring 211 to be moved downward, thus closin contacts 2l6 and 2|2. When the pin 222 is released, it will be moved in a downward direction by the spring 219, thus again changing the center of effort of spring M8 and causing the spring 2 to be moved in an upward direction, thus causing the meeting of contacts 212 and 214.

The said switch 212 is actuated by the bell crank 82, previously described and shown most clearly in Figs. 6 and 13. The said bell crank 22 is provided for the purpose with an arm 22l having a turned-over end 222 for co-acting with the pin 220. The said bell crank 82 is acted upon by the cam plate I46, previously described, through the finger 82a of the bell crank 82 when the film feed drive gear I42 is rotated, as will be subsequently more fully described.

Still referring to Figs. 13 and 14, attached to the said mechanism plate 22 is a second switch support plate 222 by means of rivets 224 and attached to the said support plate is a switch 222 of structure preferably similar to the switch 212 excepting that it is provided with contacts 222 and 221 only. The said switch 225 is also provided with a similar semicircular spring 222, a contact spring 229, a short actuating spring 222 and an operating pin 221. The said switch 222 is attached to the switch support plate 222 by screws 232, 222.

Switch operating mechanism-I willnext describe the switch operating mechanism for the electrical circuit controlling the shutter and film feeding means, and for that purpose I will refer to Figs. 13 and 14 and also to Fig.8.

Mounted upon the said mechanism plate 22 is a switch operating lever 233 pivoted to a stud 224 on said plate, said operating lever being securely held upon the stud 234. so as freely to rotate thereon, by means of a large head screw 234a, and

said operating lever is provided with a notch 222 to limit its motion, said notch co-acting with a pin 222 on. the mechanism plate 22. The said switch operating lever is moved in a clockwise direction by a spring 221 fitted over 'a stud 222 attached to the said operating lever and pressing against the switch housing of the switch 222.

The said switch operating lever 222 serves both as a switch operating lever and also as a shutter run-down stop lever, it being engaged by the pin or stud H2 on the second curtain rewind gear 22 when the shutter is released and runs all the way down, thus limiting the motionof the said second curtain rewind gear 22. At the same time it causes the contacts 222 and 221 to be closed, thus completing the circuit to the motor in a manner herein subsequently described.

Referring particularly to Fig. 14, there i attached to the lower end of the bell crank 22 a short L-shaped arm 222 by means of a shoulder rivet 242, the said L-shaped arm being caused to be rotated in a contraclockwise direction under the influence of a spring 221 fitted around said shoulder rivet 242, one end of said spring being connected to the bell crank 22 and the opposite end to said L-shaped arm 222. when the bell crank 82 is caused to be moved to the right or contraclockwise viewing Fig. 14 by the cam I42, the teeth of ratchet wheel I12 will be engaged, thus causing the exposure counter-dial I22 to be rotated in a contraclockwise direction. said dial being prevented from turning clockwise by the clutch spring 112.

Still referring to Figs. 8. 13 and 14, there is attached to the mechanism plate 22 a bushing 242 through which passes a shaft 244 having a reduced diameter indicated in dotted lines at 242,

, and to which is there fitted a hub 242 having an attached crank arm 241 securely attached to hub 242 by shoulder screw 242 which serves to attach both partsto the shaft'242. The opposite end of the shaft 244 is provided with an enlarged diameter 242 to which is securely attached a shutter release lever 222 which is provided to n age the pin or stud I I2 when the shutter is fully wound.

Still referring to Figs. 13 and 14, attached to the mechanism plate 22 is a magnetic solenoid-22I (indicated also in the diagram Fig. 3) by means of a strap 222, bolts 222 and nuts 224, said solenoid having the usual plunger or armsture shown in dotted lines in said figures and indicated at 222, and which is provided with an enlarged collar 226 between which and the solenoid housing is a spring 221 causing the armature to move to the right viewing Figs. 13 and 14,

the right-hand end of said armature being provided with a hook member 222 having a slot 222. Securely attached to the said crank arm 241 is a pin 262 which is acted upon by the hook memher 222 when the solenoid 22! is energized When the circuit is broken, the spring 221 causes the solenoid lunger or armature to be moved to the right, viewing Figs. 13 and 14, said spring co-acting with the collar 222 to prevent too great a movement or said plunger or armature 222 in a right-hand direction viewing said figures. A stop pin 22! is provided on the mechanism plate 22 and there is also provided a cooperating protruding lip 222 on the said crank arm 241.

The shutter curtain rollers.-I have previously described the structure of the two-curtain shutter excepting as to certain details of the tension rollers and take-up rollers thereof, which I will now set forth.

Inasmuch as the spring take-up roller 93 for I the first curtain and the spring take-up roller 94 for the second curtain are of identical con- 1 'struction, I will for brevity here describe or refer only to tension roller 94, and will refer particularly to Fig, 19, but it is to be understood that both said rollers have the same structure.

Fitted into a hole provided therefor in the mechanism plate 29 is a shaft 263 extending through said tension roller 94 and through the outer plate 2|, and securely locked thereto by.

means of a washer 264 and a nut 265, as shown in Fig. 4. Said tension rollers 93 and 94 are provided with bushings 266 on either end. Each such bushing on the right-hand end, viewi'ng Fig. 19, is provided with a hole through which passes the end 261 of the tension spring 268, thus locking one end of said spring to the proper tension roller. The opposite end of said tension end of said tension spring 268 is anchored to the shaft 263, but is not herein shown. Between each bushing 266 and the mechanism plate 29 is a thrust washer 269,- and between such bushing 266 on the opposite end of said curtain tension 34 showing the two curtains in longitudinal section and in plan.

' Attached tothe first curtain tension roller 98 and partly wound thereon and attached also to the first curtain take-up roller 9|, is the first' curtain 21I provided with an exposure slot or opening 212 and having the usual curtain struts 213, 213. Attached to the second curtain tension roller 94 and partly wound thereon is the second curtain 214 which at its opposite end is attached to the secondcurtain take-up roller 92. The saidv second curtain 214 is provided with an exposure slot or opening 215 having the usual struts 218, 218, The first curtain take-up roller 9| is connected as shown in Figs. 11 and 12 to the first curtain rewind gear I92 by means of pinion I9| and shaft I99. The second curtain take-up roller 92 is, as shownin Figs. 9 and 10, connected to the second curtain rewind gear 98 by means of the curtain rewind gear 98 after said first curtain has traveled a distant 'suflicient to cap the second curtain 214, as shown in Fig. 28. 'The pinion 91 will now be turned in a clockwise direction, thus winding said second curtain 214 on its take-up roller 92, and when said second curtain reaches the position shown in Fig. 29, the second curtain rewind gear 98 therefor is caused to be disensaged from the stud -III by reason of'the cam plate 211 attached to the mechanism plate 29 by rivets 218, 218, as shown in Fig. 20.

As the main shutter rewind gear 1 continues to turn in a clockwise direction, the curved end 911 of the shutter rewind clutch member II9 will ride along the under face of the cam 211, thus disengaging the end II9a of the said clutch member II9 from the stud III, as shown in Fig.

22, but just previous to such disengagement the pinion 91 on the shaft 96. When said second and first curtain rewind gears 98 and I92 are caused to be turned in a. contraclockwise direction, the said take-up curtain rollers 9| and 92 will be caused to turnin a clockwise direction, thus winding said first and second curtains 2H,

'2" upon their respective tension rollers.

The main shutter rewind gear 1 (Figs, 20, 21 and 22) is caused to be turned in a contraclockwise direction by means to be subsequently more fully referred to, carrying with it the driving .plate 8 and the shutter rewind clutch member 9. The end of the shutter rewind clutch II9a,

Fig. 21, will engage the stud III of the first curtain rewind gear I92, causing it to be turned in a contraclockwise direction, causing pinion I9| to be turned in a clockwise direction, and causing The stud or pin I|6 had moved past the end of the shutter release lever 259 (best shown in Figs. 13 and 14), thus preventing the second curtain rewind gear 98 from turning in a clockwise direction when the stud III becomes disengaged from the shutter rewind clutch member II9, as previously described, so that the first curtain rewind gear I92 will be permitted to turn in a clockwise direction until the stud I|9 engages the stud I I5 of the second curtain rewind gear 98, thus preventing further movement of said first curtainrewind gear I92 in a clockwise direction, as indicated in Fig. 22. The two curtains will now be in the position shown in Fig; 30 with the exposure slot or opening A formed between said two curtains.

In Fig. '23 is shown the position of the several parts, just prior to the act of releasing the first curtain rewind gear I92 from the shutter rewind clutch member I I9, and it will be noted that the stud or pin II6 has traveled some little distance beyond the shutter release lever 259. The driving stud III has not at this time been released, but said stud I I I is at the point when any further movement in a contraclockwise direction of the main shutter rewind gear II 1 will cause said stud III to be released, thereby allowing both curtain rewind gears 98 and I92 to turn in a clockwise direction. However, as soon as the stud or pin I I6 of the second curtain rewind gear 98 reaches the shutter release lever 259, said second curtain rewind gear 98 will be held from further movement, but the first curtain rewind gear I92 will be allowed to turn in a clockwise direction until the stud II9 of the first curtain rewind gear I92 is stopped by the stud II5 of the second curtain rewind'gear 98. The mechanism will now be in the position shown in Fig. 24, and the curtain exposure slot or opening A will be established as shown in Fig. 30.

When the shutter release lever 259 is operated by the solenoid magnet 25I, previously referred to, the pin or stud II6 will be disengaged by the shutter release lever 259, allowing both said ourtain rewind gears 98 and I92 to turn in a clockwise direction. The stud I I9 will remain in contact with the stud '5 until the stud or pin 6 is stopped from further movement by the switch operating lever 233, shown in Fig. 25 and elsewhere. r

Then the main shutter rewind gear I I1 is again caused to be turned in a contraclockwise direction, carrying with it the driving plate I I8 of such shutter rewind clutch member I I9, the latter will engage the stud III in the manner previously described, thus winding the first curtain 2" into the position shown in Fig. 28, in which position 

